Horizontal Reaction on Bearing 2 of side crankshaft at max torque due to belt tensions Solution

STEP 0: Pre-Calculation Summary
Formula Used
Horizontal Reaction at Bearing 2 Due to Belt = ((Belt Tension in Tight Side+Belt Tension in Loose Side)*Side Crankshaft Bearing1 Gap From Flywheel)/Distance Between Bearing1 & 2 of Side Crankshaft
R'2 = ((P1+P2)*C1)/C
This formula uses 5 Variables
Variables Used
Horizontal Reaction at Bearing 2 Due to Belt - (Measured in Newton) - Horizontal Reaction at Bearing 2 Due to Belt Tension is the horizontal reaction force acting on the 2nd bearing of the crankshaft because of the belt tensions.
Belt Tension in Tight Side - (Measured in Newton) - Belt Tension in Tight Side is defined as the tension of the belt in the tight side of the belt.
Belt Tension in Loose Side - (Measured in Newton) - Belt Tension in Loose Side is defined as the tension of the belt in the loose side of the belt.
Side Crankshaft Bearing1 Gap From Flywheel - (Measured in Meter) - Side Crankshaft Bearing1 Gap From Flywheel is the distance of 1st bearing of side crankshaft from the line of application of flywheel weight or from the flywheel center.
Distance Between Bearing1 & 2 of Side Crankshaft - (Measured in Meter) - Distance Between Bearing1 & 2 of Side Crankshaft is the distance between the 1st and 2nd bearing of the side crankshaft, useful in load calculation on side crankshaft.
STEP 1: Convert Input(s) to Base Unit
Belt Tension in Tight Side: 750 Newton --> 750 Newton No Conversion Required
Belt Tension in Loose Side: 260 Newton --> 260 Newton No Conversion Required
Side Crankshaft Bearing1 Gap From Flywheel: 205 Millimeter --> 0.205 Meter (Check conversion ​here)
Distance Between Bearing1 & 2 of Side Crankshaft: 400 Millimeter --> 0.4 Meter (Check conversion ​here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
R'2 = ((P1+P2)*C1)/C --> ((750+260)*0.205)/0.4
Evaluating ... ...
R'2 = 517.625
STEP 3: Convert Result to Output's Unit
517.625 Newton --> No Conversion Required
FINAL ANSWER
517.625 Newton <-- Horizontal Reaction at Bearing 2 Due to Belt
(Calculation completed in 00.028 seconds)

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Shri Govindram Seksaria Institute of Technology and Science (SGSITS ), Indore
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Bearings Reactions at Angle of Maximum Torque Calculators

Vertical Reaction on Bearing 1 of side crankshaft due to radial force at max torque
​ LaTeX ​ Go Vertical Reaction at Bearing 1 Due to Radial Force = (Radial Force at Crank Pin*(Overhang Distance of Piston Force From Bearing1+Distance Between Bearing1 & 2 of Side Crankshaft))/Distance Between Bearing1 & 2 of Side Crankshaft
Vertical Reaction on Bearing 2 of side crankshaft due to radial force at max torque
​ LaTeX ​ Go Vertical Reaction at Bearing 2 Due to Radial Force = (Radial Force at Crank Pin*Overhang Distance of Piston Force From Bearing1)/Distance Between Bearing1 & 2 of Side Crankshaft
Vertical Reaction on Bearing 1 of side crankshaft at max torque due to weight of flywheel
​ LaTeX ​ Go Vertical Reaction at Bearing 1 Due to Flywheel = (Weight of Flywheel*Side Crankshaft Bearing2 Gap From Flywheel)/Distance Between Bearing1 & 2 of Side Crankshaft
Vertical Reaction on Bearing 2 of side crankshaft at max torque due to weight of flywheel
​ LaTeX ​ Go Vertical Reaction at Bearing 2 Due to Flywheel = (Weight of Flywheel*Side Crankshaft Bearing1 Gap From Flywheel)/Distance Between Bearing1 & 2 of Side Crankshaft

Horizontal Reaction on Bearing 2 of side crankshaft at max torque due to belt tensions Formula

​LaTeX ​Go
Horizontal Reaction at Bearing 2 Due to Belt = ((Belt Tension in Tight Side+Belt Tension in Loose Side)*Side Crankshaft Bearing1 Gap From Flywheel)/Distance Between Bearing1 & 2 of Side Crankshaft
R'2 = ((P1+P2)*C1)/C

Side crankshaft at angle of max torque

The torque is maximum when the tangential component of the force on the crank pin is maximum. For this condition, the crank angle from the top dead centre position is usually 25º to 35º for petrol engines and 30º to 40° for diesel engines.
Assumptions-
(i) The engine is vertical.
(ii) The belt drive is horizontal.
(iii) The crankshaft is simply supported on bearings 1 and 2.

How to Calculate Horizontal Reaction on Bearing 2 of side crankshaft at max torque due to belt tensions?

Horizontal Reaction on Bearing 2 of side crankshaft at max torque due to belt tensions calculator uses Horizontal Reaction at Bearing 2 Due to Belt = ((Belt Tension in Tight Side+Belt Tension in Loose Side)*Side Crankshaft Bearing1 Gap From Flywheel)/Distance Between Bearing1 & 2 of Side Crankshaft to calculate the Horizontal Reaction at Bearing 2 Due to Belt, Horizontal Reaction on Bearing 2 of side crankshaft at max torque due to belt tensions is the horizontal reaction force acting on the 2nd bearing of the side crankshaft at maximum torque position because of the belt tensions, designed for when the crank is at the top dead centre position and subjected to maximum torsional moment. Horizontal Reaction at Bearing 2 Due to Belt is denoted by R'2 symbol.

How to calculate Horizontal Reaction on Bearing 2 of side crankshaft at max torque due to belt tensions using this online calculator? To use this online calculator for Horizontal Reaction on Bearing 2 of side crankshaft at max torque due to belt tensions, enter Belt Tension in Tight Side (P1), Belt Tension in Loose Side (P2), Side Crankshaft Bearing1 Gap From Flywheel (C1) & Distance Between Bearing1 & 2 of Side Crankshaft (C) and hit the calculate button. Here is how the Horizontal Reaction on Bearing 2 of side crankshaft at max torque due to belt tensions calculation can be explained with given input values -> 517.625 = ((750+260)*0.205)/0.4.

FAQ

What is Horizontal Reaction on Bearing 2 of side crankshaft at max torque due to belt tensions?
Horizontal Reaction on Bearing 2 of side crankshaft at max torque due to belt tensions is the horizontal reaction force acting on the 2nd bearing of the side crankshaft at maximum torque position because of the belt tensions, designed for when the crank is at the top dead centre position and subjected to maximum torsional moment and is represented as R'2 = ((P1+P2)*C1)/C or Horizontal Reaction at Bearing 2 Due to Belt = ((Belt Tension in Tight Side+Belt Tension in Loose Side)*Side Crankshaft Bearing1 Gap From Flywheel)/Distance Between Bearing1 & 2 of Side Crankshaft. Belt Tension in Tight Side is defined as the tension of the belt in the tight side of the belt, Belt Tension in Loose Side is defined as the tension of the belt in the loose side of the belt, Side Crankshaft Bearing1 Gap From Flywheel is the distance of 1st bearing of side crankshaft from the line of application of flywheel weight or from the flywheel center & Distance Between Bearing1 & 2 of Side Crankshaft is the distance between the 1st and 2nd bearing of the side crankshaft, useful in load calculation on side crankshaft.
How to calculate Horizontal Reaction on Bearing 2 of side crankshaft at max torque due to belt tensions?
Horizontal Reaction on Bearing 2 of side crankshaft at max torque due to belt tensions is the horizontal reaction force acting on the 2nd bearing of the side crankshaft at maximum torque position because of the belt tensions, designed for when the crank is at the top dead centre position and subjected to maximum torsional moment is calculated using Horizontal Reaction at Bearing 2 Due to Belt = ((Belt Tension in Tight Side+Belt Tension in Loose Side)*Side Crankshaft Bearing1 Gap From Flywheel)/Distance Between Bearing1 & 2 of Side Crankshaft. To calculate Horizontal Reaction on Bearing 2 of side crankshaft at max torque due to belt tensions, you need Belt Tension in Tight Side (P1), Belt Tension in Loose Side (P2), Side Crankshaft Bearing1 Gap From Flywheel (C1) & Distance Between Bearing1 & 2 of Side Crankshaft (C). With our tool, you need to enter the respective value for Belt Tension in Tight Side, Belt Tension in Loose Side, Side Crankshaft Bearing1 Gap From Flywheel & Distance Between Bearing1 & 2 of Side Crankshaft and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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